KR200180337Y1 - Coupling device of tube having the structure of proof against earthquakes - Google Patents

Abstract

The present invention relates to a valve in which the seismic structure of the connecting portion is formed to have a seismic structure in the connecting portion in the connection of various conduits such as a water supply valve or a gas pipe and the conduit.

Conventional valve connection simply by fitting the valve and the conduit to prevent the leakage of the internal material by inserting the rubber ring in the connection portion so that when the conduit moves, such as earthquake, the insertion tube or rubber ring of the connection is broken and separated It has a lung where the contents leak out.

According to the present invention, in the connection of conduits such as gas, oil and water valves, conduits, or conduits and valves, when the warpage of the connection occurs during a disaster caused by the earthquake, ie, earthquake, etc. It is a useful design that can prevent various disasters caused by leakage of contents, and its structure is simple and its effect is advanced. It prevents leakage of gas and oil or water pipes when natural disasters occur. It is designed with features to minimize the.

Description

Seismic Structure of Conduit Connection

This invention relates to the seismic structure of the conduit connection part of the connection part which has a seismic structure in the connection part in connection of various valve parts, such as a water supply valve or a gas pipe, and a conduit | pipe.

As is well known, a pipeline for transferring various oil and water streams is connected to a conduit and a conduit to transfer a large amount, and a valve is configured to block the flow.

In other words, the pipeline is proportionate to the industrial development by the advantages of safe, quick and large amount of water, oil and gas transfer, and cost savings that can be used for a long time with one installation. It is installed.

However, in the pipeline, dangerous goods such as gas and oil, which can cause serious damage to the environment, are being transported, and when the valves and conduits are damaged, the dangerous goods being transported leak to the outer layers, causing environmental pollution and depriving people of life and property. There is a risk of causing it.

There are many reasons for such an accident, but especially earthquakes occur in large areas at the same time, causing national disasters.

It is well known that such earthquakes have occurred frequently at home and abroad in recent years, but various domestic conduits installed in buildings and on the ground or underground do not have earthquake-resistant design and construction to prevent such damage. .

The reason for this is that the seismic incidence rate in Korea has been weak and the time and expense and high level of technology are required to design the earthquake-resistant design.

In recent years, however, many earthquakes have occurred worldwide, and the Korean Peninsula cannot be seen as a geologically safe area.

As a result, seismic design was mandated by the waterworks department and the environment department along with the recommendation to introduce seismic design in buildings, various civil works and pipelines.

Accordingly, the conventional conduit connection simply fits the valve or conduit to the conduit, but simply fits the rubber ring to the connection to prevent leakage of the internal material. When the valve or conduit moves, such as an earthquake, The rubber ring inserted into the sealant of the has been ruptured and separated easily has a structure that can cause a leak accident.

Such rupture or separation of the rubber ring may be caused when the conduit is not moved or the earthquake is moved in a state where each conduit is in an opposite state, causing the rubber ring to rupture due to an increase in pressing force at a part of the connection part. This is because leaking holes are generated due to the occurrence of space depending on the phenomenon.

As such, there is no connection means of pipelines designed for earthquake protection, but there are many examples for providing mobility of a connection part and obtaining a sealing function of the connection part in a connection configuration.

For example, the Republic of Korea Utility Model No. 10941, when the rotary shaft is connected to the shaft hole formed in the oil container in the connection portion of the size to be in close contact with the shaft installation tube on the rotating shaft in order to be able to rotate without leaking the contents in the container to the outside Forming a protruding ring and fastening a sealing "o" ring on the outer peripheral surface of the protruding ring, and a plurality of auxiliary ring spacing ring sealing ring, etc. in the protruding ring to the outside and overlapped several times to obtain a sealing effect.

The above configuration can be used in a pipeline that does not provide flexibility when a movement due to an earthquake or the like is connected to a conduit and is merely for sealing between the rotating shaft and its fixed portion in a sealed configuration of the rotating shaft. There is no technology in it.

An object of the present invention for improving the above-mentioned problems is to connect the valve and the conduit and the conduit and the conduit, and when the respective conduits are moved at different momentum to prevent the loosening and breakage of the connection portion to leak the contents in the conduit It is to prevent.

That is, an expansion insertion pipe is formed on the arm member side of the valve or the conduit, and a male member conduit having a rounded jaw is inserted therein, and the locking ring is fastened to the lock ring fastening ring groove formed on the inner circumferential surface of the insertion pipe so that the elasticity of the backup ring and the rubber material By inserting the “o” ring in sequence and then pressing it with a pressure ring that is fastened to the flange, the elasticity of the “o” ring of rubber material increases the flexibility in the conduit connection when the female and water pipes are relaxed by different movements. It does not form a leaking space.

1 is an exploded perspective view of the present invention.

Figure 2 is an overall cross-sectional view showing the main part of the use state of the present invention.

Figure 3 is an enlarged cross-sectional view of the main part of the present invention.

* Explanation of symbols for main parts of the drawings

10: arm member 11: insertion tube

12: flange 20: male member

21: round jaw 30: fastening ring groove

31: lock ring 32: backup ring

33: “o” ring 40: pressure ring

In order to achieve the above object, the present invention inserts and connects a male member conduit having a round jaw to an expansion insertion tube of a female member such as a valve or a conduit, and fastens the lock ring to the lock ring fastening ring groove formed on the inner circumferential surface of the insertion tube. The rubber material “o” ring is inserted when the female and water pipes are deflected by different movements by inserting the backup ring and the elastic “o” ring of rubber material in sequence and then compressing it with a pressure ring fastened to the flange. The elastic action of the conduit so as not to form a leaking space at the connection of the conduit.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view of the present invention, Figure 2 is an overall cross-sectional view showing the main portion of the use state of the present invention, Figure 3 is an enlarged cross-sectional view of the main part of the present invention.

As shown in the drawings, the female and male connecting conduits are inserted into the fitting, and the connecting members such as the valve or the conduit are connected and fastened by the “o” ring and the fastening member to be sealed and fixed at the connecting portion. The locking ring coupling groove 30 is formed on the inner peripheral surface of the extended insertion tube 11 to insert the male member conduit 20 having the ring jaw 21 into the locking ring coupling groove 30. Along with the (31) and the backing ring 32 and the rubber material "o" ring (33) is inserted in sequence and then pressed by a pressure ring (40) fastened to the arm member flange (12).

Reference numeral 41 denotes a fastening screw, and 34 denotes an elastic cutout of the lock ring.

Referring to the effect of the present invention configured as described above are as follows.

As shown in FIGS. 1 and 2 and 3, the configuration of the present invention is used for connecting various valves or conduits such as gas, water, oil and the like.

That is, in the female and male connection of the valve and the conduit or the female and the water conduit, the locking ring coupling groove 30 is formed on the inner circumferential surface of the female member 10 of the valve or the conduit 11 and the insertion tube 11 of the expansion conduit to protrude outwardly. The male member conduit 20 in which 21 is formed is inserted.

As described above, the lock ring 31 having the elastic cutout 34 shown in FIG. 3 is fastened to the lock ring coupling groove 30 formed inside the insertion tube 11, and the backup ring 32) and the "o" ring 33 is fastened by pressing the "o" ring 33 with a pressure ring 40 is fastened to the female member flange 12.

The arm member 10 and the male member 20 which are fastened by this are not sealed by the “o” ring 33 of the elastic member, and there is no leakage of contents, and each conduit connected by an earthquake or the like is caused by different momentum. When the movement occurs, the bending bending phenomenon of the angle at the linear connection of the connecting portion occurs.

At this time, the “o” ring 33 of the rubber material pressed onto the pressure ring 40 has a degree of compression, that is, the compressive force is increased at the bent inner side, thereby further compressing the compressive force, so that the “o” ring 33 of the rubber material has the width thereof. As it shrinks, the other side becomes less pressure and does not form a leaking space due to the elasticity of the rubber material.

As such, the backup ring 32 located at the front end of the “o” ring 33 by varying the elastic force does not always change the same position and the degree of compression, and the elastic “o” ring ( 33) is to prevent the closed end to reduce the effect of the compression sealing in the inner circumferential surface of the insertion tube 11 and the outer circumferential surface of the male member 20 will not form a leaking space even when the loosening of the connection is bent.

And the locking ring 31 is fastened to the fastening ring groove 30 is less than the circumference of the ring jaw 21 of the male member 20 is inserted into the connection prevents the fall of the ring jaw 21 to prevent the loosening of the female, water pipe It is possible to prevent the rupture of the conduit connecting part by maintaining a firm fastening state without disconnection or breakage of the connection part. Especially, a flexible “o” ring 33 is embedded between the male and female fastening conduits, so that the conduit can be changed even if it is different It does not reduce the effect of the sealing action without changing the degree of close contact.

Although the connection configuration of the valve and the conduit is shown in the drawings of the present invention, it is a matter of course that the connection between the conduit and the conduit has the same effect.

The present invention, as described above, in the connection of gas, oil and water valves and conduits or conduits and conduits, the connection part is broken when the bending part of the connection occurs during the disaster caused by the earthquake, ie, earthquake, etc. It is a useful design with features that can prevent various disasters caused by leaks.The composition is simple and the effect is advanced.It can minimize the national disaster by preventing the leakage of gas and oil or water pipes when natural disasters occur. It is devised with features.

Claims (1)

In the connection configuration in which the female and male connecting conduits are inserted into the fitting, and are closed and fixed at the connecting portion by fastening with the “o” ring and the fastening member, the extended insertion of the female member 10 which is the connecting member of the valve and the conduit. Inserting the male member conduit 20 having the ring jaw 21 by forming the locking ring fastening ring groove 30 on the inner circumferential surface of the pipe 11 and fastening the lock ring 31 to the locking ring fastening groove 30. The seismic structure of the conduit connecting portion, characterized in that the backing ring 32 and the rubber material "o" ring 33 is inserted in sequence and then pressed by a pressure ring 40 fastened to the arm member flange 12.